Control system



Nov. 1, 1938. M. sTALEY ET AL 2,135,204

CONTROL SYSTEM Filed June 8, 193% 7 Sheets-Sheet l fmvEN-ro i E I i BY @bei Avda-vw i fg .i

M. sTALEY ET A1. 2,135,204

CONTROL SYSTEM Nov. 1, 1 938.

'7 Sheets-Sheet 2 Filed June 8, 1954 DLI LOOImf-H vm. 515D 6TH F 4TH noon 3RD FLOOR ULDI FLOOR 319 may Ejg. Z.

INVENTOR Marce/lus Sia/ey BY A dg /1/ rame'r SEMENT ,505D ,5050 ATTORNEY Nov. 1, 1938.

M. STALEY ET AL CONTROL SYSTEM Filed June 8, 1954 EMC '7 Sheet's--Sheei'l 3 INVENTRS Marce/M5 57h/ey /framer ATTORNEY Nov. 1, 1938. 4 M sTALEY ET Al.

CONTROL SYSTEM Filed June 8, 1954 7 sheets-sheet 4 Nov. 1, 1938. M. sTALEY-ET A1.

CONTROL SYSTEM h Filed June 8, 1954 7 Sheets-Sheetv IN E TOR BY @C @M www N@v.1,193s. M STALEY ET AL j y 2,135,204

CONTROL SYSTEM Filed June 8, 1954 7 Sheets-Sheet 6 ORNEY Nov. 1, 1 938.

M. sTALEY ET Al.

CONTROL SYSTEM Filed June 8, 1934 7 Sheets-Sheet '7 BY ZJ #l Patented Nov. 1, 1938 v CONTRQL SYSTEM Marcellus Staley and Adels Kramer, Brooklyn,

assigncrs to Staley Elevator Company,

lne., New York, N. il., a corporaon of New llork application June c', isst, sensi No. 'Isacco c c. 4(ci. lor-Mael cal in operation; the unit comprising compara tively ew parts and being oi small sise, light 'weight and low cost o manuacture. y l

Another object of the invention is to arrange the elements oi the controller in a manner per miti-.ing ready access to the parts, whereby the unit can `oe easily assembled or dismantled, and the adjustment of parts, or their removal .tor re-1 pair or replacement, is facilitated.

V.iinother object is to provide an improved.v

\ arrangement ci a rotatable control drum for governing various operations of the control systern.

Another purpose of theA invention is to provide I means adapted to function intermittently to eifeet full, accurate and rapid movements of the control drum.

Another object is the provision of means for controlling the stopping of an elevator car on a call registered oppositely to rponding direction, and separate means, adapted to act in substan tially the same time period,` to control stops on calls registered in responding direction.

It is also the purpose of the invention to obviate the use of mechanical lconnections between the elevator; car and its controller. p

And, it is a further object to provide a control system for electric elevators which is full-collective, full-cumulative, lull-selectiveY and single push, i. e. responsive to the' momentary pressure of push buttons.

Other oblects and advantages willv more fully appear as the description proceeds.

In the drawings accompanying and forming part offthis specication:

Figure 1 is a view in elevation of the controller.

Figures 2, 2a, represent diagrammatically the relationship ot the various elements' and electrical circuits oi' the system.

Figure 3 is anend elevation showing the means for driving the control drum, certain partsbeing broken away and other parts being in section.

Figure 4 is a front view ot the arrangement Y. shown in Figure 3, certain parts being in" section.

Figure 5.is alplan view showing a development of the control drum, certain wiring connections being indicated by dotted lines.

Alranged. -`Spacer sleeves I2, tending within. the case,

. available to a broad range of applications. ln the present form, merely for illustrative purposes, it is movin as applied to the control of the operations ci an automatic electric elevator. lt can be operated tl'lrcughv the medium oi direct current, alternating current, or a combination thereof. The call or signal branch of the system can be either a single-hutten type, or, as preferred, can he a two-button, single-push arrangement. Varn lous other features, depending upon individual requirements can he added to and made part of the system, such as the lighting of indicator arrows, the indication ci registered signals, the manner o response thereto, and like features.

1n the form of the invention illustrated,I a twobutton, single-push call system is provided. It is `push button contacts, U and DI. andthe hall boxes at the basement and upper terminal each carry a set of push button contacts, DB and U6, respectively. In the form shown, the car is provided -with a gang-switch box GS in which is mounted a set of door-corresponding push buttons for operating associated contacts as will be' described.

The mounting structure for the controller'of the system, see Figure 1, comprises a case 4 mounted on abridge frame, between two forward legs 5, of which, is.a panel 6.V For the purpose of the present description the panel' is shown carrying a potential switch 1P, an up direction switch 8U and a down direction switch 9D.

In oase l channel membersY I0 and II are artted on a bolt exserve to position and support the channel members at one side of the case. At theopposite side of the case, channel 'member I I rests on an angle piece secured to the case and channel member l0 is supported on an extended toe of a bracket I3, which, in turn, is supported on the channel member II. Arranged in abutting relation with one end of channel I 0, is a channel section I6, the mouth of which faces a cutout provided in the adjacent side wall of the case. The lower limb of section Il rests on the extended toe of the bracket I3 and its upper limb rests on an angle piece secured to the case. The bracket I3 is also suitably bored and serves with a bearing arm secured in the case, to provide bearings for the shaft of a control drum of the system.

Mounted in each of channel members IIl, II and I4 is a plurality of electro-magnetic devices and means are provided, see Figure 1, whereby the devices are individually removable from the channel-members. For this purpose, see Figure 3, screws I6 are threaded through the lower limbs of the channel members and take into a bottom plate provided for each magnet. The screws are provided with locknuts and serve to securely hold the magnets in place in the channels. Depending from channels I0 and II are stirrups il, see Figure l, each of which, by means of bolts passing through the stirrup straps, is secured to lugs depending from the channel members. Each stirrup, in the form shown, spans two or more magnets and is faced with a pad of felt or the like upon which the magnet plungers are adapted to rest. When it is desired to remove a magnet, the stirrup bolts are loosened and the stirrup is swung', enabling the magnet plunger to be removed; whereupon screws I 8 are withdrawn, the bottom plate of the magnet is extracted,freeing the magnet, so that it can be removed from its channel member. Each of the electro-magnetic devices of the system is also adapted to control the actuation of contacts, which are carried by the channel members, and the limbs of the channels are provided 'with spaced, registering openings topermit reciprocal movements of the magnet plungers.

Heretofore the mag'net housings were generally formed of castings. These were bulky, heavy and expensive. The improved structure dispenses with the use of castings. The provision of channel members, each of which carries a plurality of the electro-magnetic devices of the system, and their associated contacts, effects a considerable reduction in weight and a substan,

tial saving in the manufacturing cost oi' the controller. The air iiow through the channel members results in rapid dissipation of the heat generated in the magnets, improving the efficiency oi' the system. Each of the channel members also serves as a magnetic frame for a plurality oi' the electro-magnetic devices of the system. The

controller is also characterized by the features that all of the electro-magnetic devices are of the same structural arrangement and that all of the contacts controlled by the magnets-are of the same type. The `arrangement permits ready Yaccess to the various parts and provides for the convenient removal of the individual magnets. lf desired the case can be detached and the varicus sections of the controller can be transported by hand.Y The unit requires little space and can be installed in any desirable location in a building.

The devices mounted in channel member II comprise a battery of floor' magnets Il, which form part of the call branch of the system. In

the arrangement illustrated, two terminals and ve intermediate floors are indicated and, as shown in Figure 2a, the first magnet of the battery IU and D, reading from the left oi' the tlgure, serves as the ilrst, or main, floor up and down `ca1l magnet, the following ve magnets 2U to 6U, inclusive serve as up call magnets for the second to the sixth iloors, and the remaining five magnets indicated as BD and 2D to 5D, inclusive serve as down call magnets for the basement and the second to the ilfth floors, respec` tively. Each magnet I8 is adapted to actuate decks o1' contacts mounted above and supported by channel' member I I. In the form shown, three contact decks I9, 2U and 2| are associated with each iioor magnet.

As will be described, each floor magnet is adapted to be connected with a return line to a current source, and the other side of each magnet is adapted, upon actuation of a corresponding push-button contact, to be connected with the other side of the current source. In the gang switch box GS, as shown in Figure 2, an up contact and a down contact corresponding to each of a plurality of floors (in this instance the contacts corresponding to each floor intermediate the rst and sixth floors), is bridged by a contact bar. With this arrangement, pressure of a button corresponding to any of said floors will act to complete a circuit for jointly energizing the up call and the down call magnet corresponding to such iioor. Also, in accordance with the arrangement shown, pressure oi' a button at a landing floor or of a corresponding button in the car will close a circuit for energizing a corresponding iioor magnet of the same battery. The floor magnets serving for the registration of call signals are thus reducedin number. As will be clear from the above the pressing, at any intermediate floor of the up push button and the down push button, and the pressing of the iioorcorresponding button in the car will cause the operation of the two floor-corresponding relays. 'I'he system shown, as stated, serves seven stops. is fully collective and fully selective with respect to up and down calls and only requireseleven oor relays.

In the arrangement shown there is employed a commutatng machine, comprising a control` drum adapted for rotational movements and which can be mounted either on the car or in the controller. In the latter instance the drum is actuated by the energization of jump magnets. These are preferably, although not necessarily, actuated by means of drum relays, which, in turn, receive electrical impulses controlled by movements of the car. The control drum 22, see Figure 1, is pinned to a shaft 23, bearing in the bracket I3 and in the arm I5, as previously described. The drum is preferably composedof Bakelite and is divided into a plurality of control units, comprising, in the form shown (see Figures 2a and 5), a call section C, a dispatch section D and an intercepting or stop section S.

Call section C and dispatch section D of the d'rum'" are spaced apart and arranged in substantial alinement about the circumference of the drum, each occupying something less than 180"y o! the drum surface. An adjacent circumferential portion of the drum carries the elements comprising stopsection S.

Call section C comprises two metal plates 21U, 21D, each having a stepped edge, the stepped edges of the plates being arranged in adjoining relation and providing a staggered, floor-corresponding gap at 29. Conductors 3U, 3| connect plates ZIU, 21D, respectively, to a feed strip 32.

The dispatch section D also comprises two metal plates 33D", 33D, arranged as above described to form a staggered floor-corresponding gap at 35. Conductor 36 connects plate 33D with a down direction feed strip 31D, and conductor til connects plate 33U with an up direction feed strip SQU. l l y Section S comprises two rows of contacts MU, 40D. The rows are spaced 180 apart about the drum and the spots of a row are arranged in oi'set relation to each other. Conductor 42 connects the spots of row MJU together and to an' up feed strip 43U, and conductor 44 connects the spots of row MDD together and to a down direction feed strip 45D.

Sets of stationary, floor-corresponding contact fingers 46C, 46D and 46S are also provided and respectively cooperate with the call, dispatch and stop units C, D, S, respectively. The various condoctor connections are preferably arranged within the drum and the gaps 29 and 35 can be provided with glass inserts 49 to guard against the undesirable carbonizng effects oi possible arcing. In the preferred form, see Figure 6, a channel section G is arranged in case 4 behind the control drum and one end of each of the drum contact ngers is secured to an insulating strip 5l carried by the channel section.

In the arrangement here described, call section C of the drum serves, (1) to prevent registration of a call from a landing corresponding to the position of the car atv rest, (2) to collect calls, and (3) to cooperate in the holding of all calls until served. This section can, if desired, be modified to serve alone t hold calls until served, and to cancel calls.

The dispatch section D serves, (1) to determine the direction of car travel to respond to an initial call (2) to control stopping of the car in response to the farthest call entered in the direction opposite to car-corresponding direction (termed a wrong direction call) and, (3) to maintain travel of the car tothe farthest call registered regardless of the direction indicated by the call.

The function of stop section S ls to control stopping of the carin successive response to calls registeredin established direction (right direction calls).

As will be clear from the above a small and ordinary form of drum provided with a simple arrangement of means, serves to govern many of the essential operations of the system. The drum may be provided with means for performing additional functions, or, without adding to the overall dimensions of the unit, a drum of somewhat greater length can ber substituted and provided with means whereby other features, such as the call-responsive arrangements previously referred to, can be incorporated in the system.

It will be observed that the system described need not be restricted to the use of a commutator or selector machine of the drum type. The machine, if desired, can be arranged to be moved in a horizontal, or vertical or inclined plane.

Means are also provided for imparting intermittent step movements to the commutator in opposite directions in accordance with direction of travel of the car, it being the object of the invention to provide for this purpose an arrangement adapted to effect the movements accurately and rapidly.

In the embodiment illustrated, see Figures 3 and 4, keyed to drum shaft 2`3 isa ratchet gear 52, provided on opposite sides with floor-corresponding teeth which areadapted to be engaged by pawls 53D, MU, on downward and upward movements, respectively, of the car. Each pawl is pivoted on the lower end of a vertical connecting member 55, each of the latter being pivotally connected to a plunger 56, one of which is provided for each of two jump magnets 51D, SBU,

`mounted in channel section I4. it oppositev sides which is adapted toengage an upper and a lower.

stop 61. Stops S1, in the form shown, comprise adjustable set screws, each threaded through a boss on the bracket I3. A normally springpressed detent 68 is also provided, carried by the bracket I3 and adapted to dwell in indents provided in ratchet gear 52.

When a jump magnet is energized, for example magnet SBU, its plunger and connecting rod rise and pawl 54U will rst turn about its fulcrum pin 54 of link 62 and engage a tooth of ratchet geary 52. As the plunger and connecting rod continue to ascend pawl 54U will firmly mesh witii a tooth 'of the ratchet gear and act to turn the gear and control drum and to carry radial, linkY 62, outwardly and upwardly. The upward movement of the magnet plunger is limited by a stop plug 58a, at which time buffer plate 66 of link 62 engages an vupper stop screw 61. This arrangement securely locks the'pawl in the ratchet gearas the drum is driven one full step. Overrun due to momentum is effectively prevented and backlash can not occur while the magnet is energized. When the magnet is cle-energized, its plunger will be released and will drop and the pawl will return to its initial starting position and clearance, with respect to the ratchet gear. This is effected by means of the buffer plate 66 striking a lower stop screw 61', and the stop nuty 10a arranged on the plunger stem to limit the downward movement of the plunger. As will be clear adjustments can be made to compensate for wear and play in the parts.

The inertia of an actuated plunger, connecting rod and link is adapted, through the associated pawl to provide atemporary lock for the drum at the end of the forward movement of the pawl, avoiding the introduction of errors and securing precise'movements of the drum. This is of particular importance when high speed A. C. magnets are used and the drum develops increased momentum.

Arranged above and adapted to be actuated by the stem of the'plunger of each jump magnet is a pair of contacts 51C, 58C respectively, the purpose of which will be hereinafter described.

Another bank of electro-magnetic devices is carried in the channel member i6 arranged in the upper portion of case 4. lIn the order of their showing, reading from the left in Figures .1 and 2, there is provided, up direction and down direction relays HU, 12D, above each of which are two pairs of contacts 13U; HU, 13D, 14D, and

below which are normally-closed contacts lill,

gized, the normally-closed contacts below it are opened to hold open the energizing circuit for the other relay. Alongsideof direction relay 12 is a potential relay 15, over which is arranged pairs of contacts 16, 'I1 and 18, and a pair of normally-closed contacts 19. Following the potential relay are gate closing and gate opening magnets 80, 8|, respectively. These latter magnets control hereinafter described circuits comprising contacts 80A, 80B and BIA, 8|B respectively for closing and opening a car gate. Each gate magnet is also adapted to control a pair of normally-closed contacts 82, 83, respectively. which are arranged above the magnets and forming part of another criss-cross circuit; and to control a pair of normally-closed contacts |03, 94, arranged below magnets 80, 8|, respectively. `Adjacent the gate magnets are up drum and down drum relays SlU, 85D, respectively, above cachot which are contact decks 86, 8l', 88 and a pair of normally-closed contacts 8S. Following 'the drum relays are duplicating and delay stop magnets, E@ and 9i, respectively, above which are Contact pairs 92, Q3, 94 and 85, S6, Bl, re-

spectively (contact pairs @6, 9i, of delay magnet f 3l being normally-closed). The last magnet of the battery is a hold-over relayf88 above which is arranged a pair of normally-closed contacts and pairs of contacts :'00, one pair of the iatter be o provided to correspond to each landing floor. als will be understood, contact pairs can be divided into two groups and controlled by two hold-over relays. y

The functions of the foregoing elements and their associated contacts will more fully appear hereinafter.

A ieature cf the invention is the provision ci time controls for certain operations to promote the safety and emciency of the system. Among the 'time controlied operations is lthe delayed closing of the Vdirection relay criss-cross circuit, to prevent direction of travel of the car being reversed too quickly; the retarded re-closing of normally-closed contacts |04, controlled by the gate opening magnet 8| to provide a time interval prior to re-closing of the car gate; and the` delayed opening of normally-closed contacts E03 controlled by the gate closer magnet 80, which contacts, when opened, are adapted to effect the cancellation of then registered calls and return all elements of the controller to neutral.

`Une iorm of means for performing time-control iunctions is shown in Figure 7. Et comprises a linl: i5 hung from a magnet plunger, the link having an elongated slot at |01, which receives a pin lilo carried by bent-lever |09. At one end lever is mounted on a shaft H0 of a train of gearing iii which is associated the usual ratchet and the escapement i i2. Bent arm H3 of lever i 09 is adapted to engage a spring strip ||`4 carrying one contact of a pair of contacts, the contacts being held closed by the action of a spring ii, secured at one end to a case carrying the gearing and, at the other end to the lever 69. Figure 8, illustrates a modified form of `time element. n this form, one end of a spring H6 is secured to a magnet plunger and the other end is fastened to a lever- H1, to which, at H8, is pivoted a rod iig.v t its lower end rod Il! car ries a foot or lug |20 which is adapted to engage and :dex the upper extended spring strip carrying Y' one contact of a normally closed pair of contacts. l desired, this time element can perform a reverse function. The contacts can be of the normally open type and the lower strip can be extended, whereby the device will act to close the contacts after the lapse o1' a deiinite time period.

The time element shown in Figure '7 can be employed to cause the delayed closing of contacts in circuits controlled by the direction relays and the gate opening magnet; and the means shown in Figure 8 can be used to bring about the delayed opening of contacts in a circuit controlled by the gate closer magnet, for the purposes described above.

In accordance with the purpose of the invention to provide a simplified control system comprising few parts and thus reducing the sources of maintenance diiiiculties, the use of auxiliary magnets for actuating the time means is eliminated, and the mechanism is directly connected to the plungers of the magnets controlling the circuits to be time-controlled. This arrangement in shown in Figure 2a, the geared time-mechnism being indicated at T. A device of the type shown in Figure 7 isdirectly connected to the plunger of up direction relay HU, and to the plunger of down direction relay 72D, and to the` plunger of gate opener magnet 8|, and a time device such as shown in Figure 8 is directly connected to the plunger of the gate closer magnet 30. 3y this arrangement the plunger of each oi' the magnets performs its normal functions in the control system and also performs the function of controlling the operation of timemechanism for controlling other circuits of the system. Y

.it will be observed that the time-mechanism described is entirely mechanical in operation. It can be adjusted to function in different time periods. it is uniform and positive in action, operating without binding or sticking and its operation will not be impaired by temperature or climatic changes. Thus, the means shown and described is substantially free of objections commonly associated with dash pots.

Another feature of the invention relates to the means for providing accurate and level floor stops. Preferably, the use of mechanical connections are dispensed with and at each landing, in the up and the down direction of car travel, an electrical in1-.

pulse is transmitted from the car to the controller.

En the form shown, there is arranged on the top of 'the car an up switch and a down switch |2| U and |2|D respectively, and on the guide rails for the car, are sets of obstruction ngers |22U and i221), cooperating with the switches. A finger of up series |22U is arranged a few inches below the upper level of each-floor from the iirst to the upper terminal, inclusive, and a finger of down series l22D is arranged slightly above the upper level of each floor from the fth to the basement, inclusive. The position of the lingers of the respective series with relation to the level of the floors is selected in accordance with the speed of the car and its slide in making floor stops in the up direction and in the down direction, respectively.

Each drum switch carried on the car, see Figure l0, comprises a. housing |25 within which switch contacts are mounted on flexible strips |21. The strips are adapted to be exed, to close the contacts, by means of a button |28, normally urged from the strips by a cantilever spring |29, through which the tip of the button passes. Over button |28 an actuating arm |30 extends, one end of the arm being secured to a boss provided in the switch housing and the other end of the arm projecting exteriorly of the housing, whereby it isA adapted to be flexed by the obused.

struction lingers of one series or the other as the car passes up or down in the hoistway. Mounted on the top of housing |25 and extending over a slot therein, is a spring larm |3|, which carries a pad of felt or the like. Arm |30, upon each release from an obstmction nger will strike against the pad on arm 53|, this arrangement providing damping means whereby the making of double contacts by the switch mechanism, is avoided.

If desired, additional obstruction fingers can be employed at each terminal. As shown, see Figure 9, two or more iingers oi" up series |22U can be placed adjacent the upper terminal and two or more nngers of down series lZiD can be arranged slightly above the lower terminal floor. ln the event the drum should fail to jump on either an' up movement or a down movement of 'the car, then, when the car reaches a terminal in such movement, the proper obstruction fingers and car switch cooperate to eiect additional movements of the drum necessary to secure its accurate resetting. Should 'the car switch be actuated more than the number ci times required for accurate reesetting oi the drum, this will have no uncle 1 sirable effect because the teeth oi ratchet gear correspond to the door stops and the paw?. the energized jump magnet can not engage a tooth of the gear and the will not turni..

The arrangement, alcove-described, involves a number oi advantages. lt does not reduire the provision of space equivalent to a miniature hatchway in which a selector machine moves in unison with and in proportion to the movement of the car. it avoids the diiculties involved in securing satisactory gear ratios to eect the proper proportionate movement ot tlie'selector machine. It dispenses with the mechanical connection he@ tween the car and the controller, as by means of tapes or the like. instead, there is provided an arrangement w'hich can be installed in a small space and which is not limited with regard to the heighth of the building with which it is to be It does not reduire a particular location with respect to the car to satisfy the requirements of mechanical. connections.' It provides a direct l to l ratio between the c ar and the controller. It carries out the purpose of the invention to provide a completely electricv control system for elevators.

The system in operation is designed to provide proper sequence of response to and serving of passenger requirements.

If, for example, the car is at rest at the basement and no calls are registered; then, see Figure 5, fingers 46C corresponding to all oors, except the basement, rest on plate 2'|U of call section C of the drum, and the basement corresponding linger 46C rests in the dead spot 29. Thus, calls can lie-registered for all iloors, except the base'-, ment. With respect to the dispatch section D of the drum, basement-corresponding finger 46D rests in the dead spot at 35 land the remaining floor-corresponding fingers 46D rest -on plate 33U. Plate 33 is connected with up direction feed strip U, which'forms part of the energizing circuit for up direction relay 1|U as will be described. Accordingly, in response to any calls registered the car will pursue an upward direction of travel. g I

In the operations now about to be described, particular attention is directed to Figures 2, 2a and 5, the latter showing in dotted lines, the connections which lead to and from the control drum.

If now the fth floor down button is pressed,

. potential .relay "iii, actuates four pairs of contacts.

contacts '58 to establish 'through Wiring 2M and there will be registered what is termed a wrong direction call, because it is entered for a direction opposite to car-correspondingdirection. This button `having been pressed, a circuit is established leading from the positive side of the line, see Figure 2, through lead 200, through fth oor down contacts 25, wiring 20|, the coil of the :fifth floor magnet 5D of the down series, wiring 3&0, fth floor contact nger 46C, plate NU, conductor 30, feed strip 32, feed finger 46C, of call unit C wiring 30 303 to the negative side of the line. The plunger of the energized fifth iioor magnet in rising will close Contact pairs 2 i, 20 and i9, through the latter of which a self-holding circuit for the floor magnet is completed, leading from positive line 209, Wiring till? and contacts i9 to the coil. Through contacts 2l, the negative line through wiring 3M is brought 'to the dispatch section D of the drum (see Figure 5) through fifth door contact finger 56D, plate 33U, con-1 doctor tt?, up direction feed strip 39D, feed strip nger 46D, and wiring RMU, contacts HB2 ci the direction relay criss-cross circuit, wire tutti, the

coil of updirection relay lill, wiring 26M, contacts lg, of potential relay l5, Wirmg 26M, contacts til of hold over relay 98, Wiring fitti, contacts litt o gate opening relay lil, wiring a series oi safety door lock contacts DLH contacts and Wiring 2t@ to 'the positive side oi the line.

lin the form oi the invention here shown and described plunger oi the energized direction relay lllU closes contacts MU, lis3`, wl1ereupon a potential relay l5 will be energized by means ot a circuit leading from the positive line through the coil oi relay l5, Wire llli, contacts l/ZiU, of up direction relay lill, to negative line Stell. In the arrangement shown, the plunger of The opening of normally-closed contacts lll o the potential relay opens the connection to the posi-1 tive side of the original safety circuit for the di rection relay, this occurring, however, onlg,7 after the plunger oi the magnet has closed the lower 200, a direct connection for the direction and potential relays to the positive side of the line. Through contacts '|16 above the potential relay the above mentioned original relay' circuit is rerouted and a circuit is closed which leads from the positive line 20d, through contacts 16, wir-Y the coil of gate closer magnet 80, wire. l,&|)8, contacts 83 of the gate opening magnet 8|, wire 308, normally-closed potential switch conlng 208,

tacts |50, wire 30|, to the negative side o the line, whereby the gate closer magnet 80 becomes energized. j

As will be clear from the above, positive line 204 is first used in energizing the direction and potential relays, is thereafter disconnected therefrom, and then employed in the energizing circuit for gate closerV magnet 80. By this arrangement,-

it will be observed all hatchway doors must be closed before the gate closer magnet 80 can be n energized.

Through the action of the plunger of gate closer magnet 80, contacts 80A, 80B are closed to complete a circuit, whereby a motor GM is started for closing the car gate. This circuit leads from positive line 201 through contacts 80B of gate closer magnet 00 and wiring 250 to the gate motor GM and from the motor through wiring 3 I 9 and contacts 00A of gate closer magnet 80 to the negative line 303.

In accordance withthe invention, the car gate must ilrst be in substantially closed position before the potential switch and the direction switch can operate. In closing, the car gate is adapted to successively close gate contacts |52, |5|. Closing of the contacts |5| completes a circuit for the coils of the up direction switch and the potential switch. In the present instance this circuit leads, from the positive line, through a series of safety door lock contacts DLI, wire 206, contacts 13U above direction relay 1|U, contacts 'Il above potential relay l5, and wires 209, 2| 0 to the coils of the magnets of the up direction and potential switches 8U and 1P, respectively, through the coils of the switch magnets and thence through wires 3||,13|2, 3|3, normally-closed contacts 91 above stop-delay magnet 9|, wire 3H, gate contacts |5|, another series of safety door lock contacts DL2 and wire 303 to the negative side of the line. Potential and up direction switches 1P and 8U will now be actuated to close contacts 1A,

1B and 8A, 8B, respectively, 'to complete a circuit E BC for releasing elevator motor brake B and a circuit EMC for starting elevator motor EM to start the car in an up direction. The potential switch when so actuated, also opens normallyclosed contacts |50, whereby gate closing magnet 80 becomes deenergized, and closes contacts |53. The direction switch 8U when closed acts to close contacts |54.

`It is also the purpose of the invention to provide means serving to cooperate in the storing of calls and to effect cancellation of calls. In the preferred arrangement these means are controlled by the car gate, being operated by the closing of the gate and being restored to inoperated position by the opening of the gate. This purpose can be accomplished by causing the car gate to control the operation` of one or more hold-over relays. which actuate pairs of floor-corresponding contacts. 1

Closing of gate contacts |5| completes a circuit starting from positive line 206-through the coil of a holdover relay 98, wiring 3H, gate contacts |5|, door lock contacts DL2, and wiring 303 to the negative side of the line. The plunger of relay 98 in rising, opens normally-closed contacts 95 the purpose of which will later appear and closes pairs of floor-corresponding contacts |00. There is a pair of contacts |00 associated with each of the single floor relays for the basement, flrst floor, and upper terminal, and there is also a pair of contacts associated with both the up and the down floor relay for each o f4 the floors from the second to the fifth floors, inclusive. Through closing of the contact |00, the circuit or circuits previously leading from any and all energized floor magnets through the call section C of the drum are transferred and led through wiring 300, to andthrough nowiclosed contacts |00, wiring 329, closed potential switch contacts |53, wire 30| and contacts |03 to negative line'303, and this circuit connection remains closed until after the car`has stopped and its gate has re-opened contacts |5l. This providesA an arrangement whereby signal circuits are initially established through the call section of thedrum and are thereafter by-passed through contacts |00, es-

tablishing a zero potential between the drumsection and its contact fingers.

The hold-over relay 90 and contacts |00 thus serve to provide parallel call circuits and cooperate with the call unit C of the drum in storing'registered calls until theyvare served. The function of cancelling calls as served is also performed by the contacts |00. When the `car stops at a floor, the gate in its opening movement will the separation of the pairs of floor-corresponding contacts |00, opening the circuit for one or both of the corresponding floor relays. By this means, the call or calls for a floor are canceled on the first stop of the car at the floor and the call section of the drum is relieved of the duty of breaking circuits.

As the car in responding to the fifth oor call reaches a position approximately opposite to the landing of each intermediate floor, arm |30 of up switch -|2|U on the car, see Figure 9, will be flexed by an obstruction member of up series |22U, and the switch contacts will be momentarily closed. This arrangement provides means for controlling intermittent, floor-corresponding, step movements of the commutator mechanism. In the form of the invention shown, the engagement of the switch contacts in the hatchway, as described, closes a circuit for energizing up drum relay 84U, thecircuit leading from positive line 206 through the coil of relay GIU, wire 3| 5U, the contacts of switch |2|U and wiring 3| 8, 303 to the negative side of the line. The plunger of relay U will now rise and close several decks of contacts 86, 81, 88 and open normally closed contacts 89. As the orginal up drum relay energizing circuit through the car switch is only momentarily closed, contacts 86 above the drum relay serve to close a self-holding circuit which leads through wiring 3|5U, contacts 86 of the drum relay MU, wiring 3|'|, normally closed contacts 51C, 58C of jump magnets 51D, 58U respectively, and wiring 303 to the negative line. Contact pairs 81, 83 above the up drum relay MU serve to complete a circuit for energizing the coil of up jump magnet SBU, the circuit running from positive line 206, through contacts 88 of drum relaygalU, wire 2| the coil of jump magnet 58U, wire 320U, contacts 81 of drum relay 84U to negative line 303. The armature of magnet 58U will now rise and its pawl will turn gear 52 to advance the control drum one floor-corresponding step, in the manner previously described.

Upon completion of each drum step, the stem 10 of the magnet plunger opens normally-closed contacts 53C, which, in turn, opens the self-holding circuit of drum relay NU. The plunger of the drum relay indropping will allow contact pairs 81, to open andjump magnet SBU will, thereupon, become de-energized.

Then, as the car reaches a position nearly opy posite the fifth oor, at which a stop is scheduled,

the drum is jumped again in the manner described. This movement of the drum will bring the live, floor-corresponding, finger 46C into the gap 29 (see Figure 5) of call unit C of the commutator drum. The call circuit will not be in-v terrupted at this time as itis maintained through the hold-over relay 90 and contacts |00,. as previously described. Live floor-corresponding finger 46D will rest, at this time, in the gap 35 of the said dispatch section of the drum. This,

on an initial or farthest wrong direction call It is the purpose of the invention to provide a system in which quick reversal of direction of v car travel is avoided by timing the operation of direction-control circuits. In the arrangement shown this is accomplished by a criss-cross circuit for the direction relays, in which contacts |l, l02 are controlled by time elements directly connected to the plungers of the direction relays. Throughout the energization period ci direction relay HU, contacts lili arranged below were open, which in turn, opened the criss-cross circuit for energizing down direction relay 12D. Now, upon relay 'HU becoming cle-energized, its directly connected time-element will function and the contacts |0i will be maintained open for an interval of time. During this period priorenergized relay HU will be established in preierred operating position.

Means are provided for avoiding simultaneous, energization of the gate closer andgate opener magnets and for providing a period of time, after opening of the car gate, before the car gate can re-close.

As potential switch 1P dropped out, as above described, it closed contacts |50, to complete a circuit to the gate-opener magnet 0| leading from the positive side through line 201, the coil of gate opener magnet 8|, wire 321, contacts 82 of gate closer magnet 80, Wire 328, now-closed gate contacts |52, Wiring 309, potential switch conta'cts |50, wire and back contacts |03 of gatecloser relay 80 lto negative line 303. The lgate.'

opener relay 8| will now be energized to close at its contacts BIA, BIB, a circuit for the gate motor GM for opening of the car gate.

Until the gate has started its opening movement and opened contacts |5| of the gate, the hold-over relay 98 remains energized, holding open the normally closed contacts 99, in the positive side of the line leading to the gate closer` magnet 80. l

Accordingly, when the car comes to a stop the positive side of the line leading to the gate closer magnet is already open 'at the ycontacts 99 controlled by the hold-over relay. After the gate opening magnet is energized it opens its contacts |04 also in the positive line leading to the gate closer magnet. After a time interval provided by the opening movement of thegate, .gate

contacts |5| will be opened, thereby deenergizing hold-over relay 98 and the contacts 99 of the relay will then close, but the positive side of the gate closer magnet circuit remains open at the contacts |04.

The energizing circuit for the gate opener magnet 8| is broken as the gate completes its opening movement and opens gate contacts 552. )Its plunger will drop and itstimeelement will then function. After a predetermined period of time the contacts |00 will be re-closed by the time element and the circuit for energizing the gate closer magnet can at contact 16 of potential relay 'l5 be completed again if another call is entered.

Another feature of the invention is to provide a system in which in the event of failure of the car to start in response to calls, after a predetermined period all calls will be automatically canceled. One means in which this can be accomplished is shown by interposing contacts |03 in the main negative line. In the arrangement illustrated these contacts are controlled by a timeelement directly connected to the plunger of the gate closer magnet 80. Should the gate in its closing movement be blocked; the gate closing magnet 80 will remain energized and after a opening of these contacts is adapted to break the direct negative line and as a result all active coils will become de-energized, all then registered, unanswered calls are cancelled, and the controller is rendered inoperative until the gate is permitted to complete its closing movement.

Ii instead of a single wrong direction call, i. e. for the direction opposite to car-corresponding direction, as described above, a series ofncalls of such type were entered, the calls would be first registered at call unit C of the commutator, then upon closure oi the gate and energization of holdover relay @d to close pairs of Boor-corresponding contacts itil, as described, a plurality of parallel circuits will be established for the originally completed call circuits. As the car reaches each call oor prior to the farthest wrong direction calliloor, a floor-corresponding nger 16C Will rest in a dead spot of the call unit C and the floorcorresponding contact will at this time establish a bypass for this call circuit to hold a call registered. The iinger 46D corresponding to the particular oors will also, at such time, rest in the gap oi the dispatch section D of .the drum, but one or more live ngers corresponding to farther calling door will rest on a contact plate of drum section D and the circuit for the thenenergized direction relay will remain unbroken and travel of the car in the established direction will be maintained until 'the car reachesthe floor from which the farthest wrong direction call has been entered. Upon arrival at the latter iioor stopping of the car will take place in the manner previously described. The remaining calls corresponding to oors which were passed during this operation will have been stored and remain registered through the described action of the call 'section C and hold-over relay 98. If, then no further calls have been entered for the established direction, the direction of car ltravel will be reversed, the previously referred to passed calls Will become right direction calls i. e., calls in car-corresponding direction and will be answered as now about to be described in the order of the arrival of the car at the calling oors.

If the original fifth floor down call had been entered as an up call, i. e. a right direction call, the previously described operations would be the same in all respects, with the" exception that separate means are provided to control the stopping of the car. These means comprise the stop initiating of the control drum. The arrangement of unit S. both occurrences is such, that when the car is at a landing. a contact nger or fingers 46S, corresponding to the adjacent door, or oors, rests on a contact spot, or spots, oi the section. When, as before, the car is at rest at the basement. see Figure 5, a finger 66S corresponding to the first door rests on a contact spot of row 40U. As the car in responding tothe fth oor call reaches the fourth floor an up finger finger 46S corresponding to the mth floor will rest on a contact spot Milli and a circuit will then be closed for energz'ng a stopping magnet 90, the circuit, in the arrangement shown, being completed one iioor in advance of the scheduled stop. This circuit leads from positive line 206 and through the coil of stopping magnet 90. In the om illustrated, the circuit is shown continuing from the magnet 9d through lead 3|6, normally-closed contacts 96, above relay' 9|, wire 32 l, normally-closed contacts 89 above the drum relays 84U, 85D, wire 322, now-closed'contacts |54 of the up direction lli) switch, Wire 323U, feed strip nger 46S of the' up series, up feed strip 43, conductor 42, contact spots M3U, the finger of series 46S associated with the fth iioor up magnet 5U, wire 324, closed contacts 28 above the said oor magnet, and Wiring 325, 30|, contacts |03 and Wiring 303 to the negative side of the line.

One side of the stopping magnet is connected through switch contacts 154, 55, With the up division and down division, respectively, of the stop section, and these divisions are adapted to be connected through contacts controlled by up call and down call floor relays, respectively, with a return line to a current source.

The plunger of magnet @il closes contacts 5d, thev latter closing a self-holding circuit, connectinglead 3i5 with negative line Si? normally closed contacts oil the jump magnets 57D, to negative line 303, the circuit continuing through line Sii', through normally-closed contacts ilC, 53C ci the jump magnets to return line Contacts Q3 complete a circuit for energizing relay Gi, tie's circuit running from positive line through the magnet coil, wire 32E, and contacts to negative line 3M, and contacts Sil com fte a bypass for an original control oirrunning circuit switches.

SES to negative line Normallycts Sii, are opened, l the latter -e negative side of the direction time, being bypassed, as described, through the previously1 closed contacts above now energized stopping magnet is the car reaches fifth floor, jump magnet SU Tvill he energized, as descrbed, the drum will be a la .ced a step and te stern of the magnet plun er open its pair of normally-closed contacts Contacts 55 above magnet Si in the origina-i energizing circuit for stop magnet S0 having been previously opened and contacts 58C having opened the self-holding circuit, the negative side of the line ieading to the stopping magnet Will be opened and the magnet Will become cle-energized. Contacts gli above magnet 90 now open the bypassed negative line of the potential and direction switch circuits, whereupon the current supply to the motor Wiil be cut o, and intercept the car.

It will he apparent from the above 'that the magnet 39 serves with respect to right direction" calls, to duplicate the operation of one or the other of the direction relays, with respect to wrong direction calls. This establishes a substantially uniiorrn time period in which the stopping of the car is accompiished. The arrangements described, in conjunction with the provision of a one to one relation between the movement of the car and turning ofthe control drum, enables accurate and level. ldoor stops to he effected in response to right direction and wrong direction calls.

When the car comes to a stop in response to a right direction call, the magnet Si will remain energized, through its self-holding circuit until after the gate opening magnet has heen energized and the gate has opened to open gate contacts itl. This arrangement insures proper response to and stopping of the car on right direction calls.

l a series of right direction calls are entered, these, as will be clear from Athe .foregoing description, will be answered sequentially, notwithstanding that intervening wrong direction calls may also be entered.

Another feature of the invention resides in the arrangement of the contacts above the drum relays 84U, 85D. As shown, see Figure 2, contacts 86 of the self-holding circuits for the relays are arranged above the contacts associated with the relays for energizing the jump magnets. Accordingly, the self-holding circuit for an energized drum relay must, upon de-energization of the relay, open before the jump magnet energizing circuit can open and the contacts 58C, above the jump magnet 58U,rec1ose. This avoids possible double jumping of the drum. The contacts 89 above each drum relay are normally closed and form part of the energizing circuit for energizing relay 90. Hence, when a. drum relay is energized a pair of the contacts 89 will be open and the relay can not be energized, thus preventing possible ialse stopping of the car.

It will be observed, that in accordance with the invention the pressing of a car button for an intermediate floor and the pressing of the corresponding buttons at the landing will cause the energization of two door relays corresponding to the floor. Upon the car gate 'ceing automatically closed the calls are transferred from the call section of the ccmmutator through a pair of floorcorresponding contacts actuated by the holdover relay. When the car comes to rest at the floor, the gate in its opening movement will cause the holdover relay 'to be deenergized, separating the hoor-corresponding contacts. The opening of the floor-corresponding contacts will open the circuit .lo energized oor relays, and all calls lor the for the ncor will be canceled after the car has stopped at the floor.

lAs has seen described, all calls can be entered except from a landing corresponding to the position of the car at rest, the system, in this respect, is full-collective. The call section of the drum and the hold-over relay cooperate to store and hold registered calls until answered, whereby the controller is full-cumulative and, the controller is adapted to so govern the movements of the car that it will answer in sequence calls entered in car corresponding direction and will first respond to the farthest call in a direction opposite to responding direction, whereby the system is fullselective. A iull-collective, full-cumulative, fullselective, single push control system is thus provided, Which, in operation, avoids multiple direction reversals of the car, saves mileage, and adequately meets the requirements of passenger convenience.

Other advantages of the system are the provision of a controller of standardized construction, in which the use of special parts is avoided, the absence of flashing on sliding contacts, the comparatively noiseless operation of the parts,

and the provision of adjustable safety time protection on all operations Where desirable, the latter being effected in a simple and positive manner, Without the use of dashpots or additional magnets. l

Having thus described the construction, arrangement and operation of the system, it will be understoodthat various changes can be made in carrying the invention into effect, without departing from the principle thereof.

What is claimed is:

l. .in an elevator control systemv the combination with a. car, a hoisting motor therefor and a gate on the car, of control circuits'comprising an 'up and a down iioor relay corresponding to each of a plurality of floors, up and down contacts individually operable from each of said floors to close a circuit for an associated licor relay, iioor corresponding contacts in the car, the car contacts for a oor being operable to jointly close circuits for the up and the down relay for each of said floors, a commutating machine comprising a rotatable drum having call storing, car dispatch and car intercepting units, the call Stor-- ing unit being in circuit relation with the floor relays, pairs of door corresponding contacts adapted to be closed during movement of the car to establish parallel call circuits, said last-nained pairs of contacts cooperating to store and cancel calls, contacts controlled byv each floor relay for completing one side of a circuit comprising the car dispatch unit and part or one side ci" a circuit comprising the car interoepting unit of the commutator, car running circuits controlled by a plafrality of switches, switch circuits controlled by an up and; a down direction relay, means controlled by said dispatch unit for selectively complet ing a direction circuit through a direction relay, each or" the direction relays, "when energized, be-x1 ing adapted to complete a circuit for another said switch circuits to close a car running circuit,

means :for eecting floor by door, step movements of the drum comprising a pair of jump magnets and' pawl and ratchet mechanism controlled thereby, means for transmitting energizing im: pulses to said jump magnets, selectively in ao cordance with direction ci car travel, said means comprising up and down obstruction members adjacent each oor and cooperating circuita closing members carried by the car, means whereby the car dispatch unit is adapted to opencircuit an energized direction relay to initiate stopping of the car on a call registered'opposlte to car corresponding direction, and separate means for intercepting the carin response to calls in car corresponding direction, said means comprising the car intercepting unit of the commutator, means controlled by said unit for energizing in advance of each of said last-named'stops, one of plurality of stop magnets to rst close a bypass for the original switch circuit, an energizing circuit for a secondstop magnet, and a selfholding circuit for the rst-namedstop magnet, saidV second stopnmagnet being adapted to'open the original, now bypassed, switch circuit, open 'the initial circuit for the rst stop magnet and close a. self=holdlng circuit for itself, contacts operable by each of said jump magnets to open `an up and a down floor relay corresponding to each of a plurality of floors, up and down dcontacts individually'operable from each of said plurality of floors to close a. circuit for an associated oor relay, floor-corresponding contacts in the car, the car contacts corresponding to each of said floors being operable to jointly close circuits for the up and the down relay corresponding to a floor, a commutating machine comprising a rotatable drum having call storing, car dispatch and car intercepting units, the call storing Unit being in circuit relation with the floor relays, pairs oi door-,corresponding contacts adapted to be closed during movement of the car to establish parallel call circuits, said last named pairs of contacts cooperating to store and cancel calls, contacts controlled by each door relay for coin pleting one side of a circuit comprising the car dispatch. unit, and part oi one side ci a circuit comprising the car intercepting unit of the corninu'tator, car running circuits controlled by a plurality' of switches, switch circuits controlled by an up and down direction relay, means con@ trolled by the car dispatch snit tor selectively completing a circuit for a direction relay, each ci 'the direction relays, when energized, adapted to complete a circuit for another switch relay, said last-named switch relay being adapted to first close a bypass for and then open the direc'z tion relay circuit, and to thereafter rei-cute the positive side of said direction relay circuit, to complete a circuit tor a gate closing magnet, the last named circuit comprising pairs of normally closed contacts, said gate closing magnet control ling for closing the car gate, means con= ditioned on closure el the gate tor completing said switch circuits to close a car running circuit, means .tor eecting floor by floor, step movements oi the commentator drum, comprising a pair of jump magnets and pair/land ratchet mechanism controlled thereby, means for transmitting energizing impulses to said jump magnets, selectively in accordance with the direction oi car travel, said means comprising up and clown obstruction members adjacent each oor and cooperating circuit-closing members carried by the car, means whereby' the car dispatch unit is adapted to opencircuit an energized direction relay to initiate stopping of the car on a call registered opposite to car corresponding direction, and separate means for intercepting the car in response to calls in car corresponding direction, said means comprising the car intercepting unit of the cornmutator, means controlled by said unit for energizing in advance of one of said last-named stops, one oi a plurality of stopmagnets, said magnet being adapted to first close a bypass for the original switch circuit, an energizing` circuit for the second stop magnet, and a self-holding circuit for the iirst-narned stop magnet, said second stop magnet being adapted to open the original, now bypassed, switch circuit, open the initial circuit for the first stop magnet and close I a self-holding circuit for itself, contacts operable by each of said jump magnets to open the selfholding circuit and de-energize the first stop magnet vand open the switch circuit bypass to intercept the car, a circuit comprising gate contacts and back contacts of one of said switches for energizing a magnet for controlling opening of the gate, means operable thereafter to open the sell-holding circuit ofI the second stop magnet to reclose a. part of the original switch circuit, and`time-contro1led contacts adapted to thereafter reclose a part of the circuit for the gate closing magnet and Kprepare `said circuit for com-v pletion by oney of said switch relays.

3. In an elevator control system the combination with a car, a hoisting motor therefor and a gateon the car, of control circuits comprising an up and a down oor relay corresponding to each of a plurality of iloors, up and down contacts individually operable from each of said plurality of iioors to close a circuit for" an associated floor relay, iloor-corresponding contacts in the car, the car contacts corresponding to each of said iioors being operable to jointly close circuits for the up and the down relaycorresponding to a floor, a commutating machine comprising a rotatable drum having call storing, car dispatch and car intercepting units, the call storing unit being in circuit relation with the door relays, pairs of oor corresponding contacts adapted to be closed during movement of the car to establish parallel call circuits, said lastnamed contacts cooperating to store and cancel calls, contacts controlled by each of the iloor relays for completing one side of a circuit comprising the car dispatch unit, and part of one side of a circuit comprising the car intercepting unit of the commutator, car running circuits controlled by a plurality of switches, switch circuits controlled by an up and a down direction relay, means controlled by the car dispatch unit for selectively completing a circuit for each direction relay, each yoi the direction relays, when energized, being adapted to complete a circuit for another switch relay, the last-named switch relay being adapted to iirst close a bypass for and then open the direction relay circuit, and to thereafter reroute the positive side of the said direction relay circuit to complete a circuit for a gate closing magnet, the last-named circuit comprising pairs of normally closed contacts, said gate closing magnet controlling means for closing the car gate, means conditioned on closure of the gate for completing said switch cirv cuits to close a car running circuit, means for effecting floor by floor step movements of the commutator drum, comprising a pair of jump magnets and pawl and ratchet mechanism carried thereby, means for transmitting energizing impulses to said jump magnets selectively in accordance with the direction of car travel, said means comprising up and down obstruction members adjacent each oor and up and down flexible circuit-closing members on the car, means controlled by the car dispatch-unit to open the circuit of a direction relay to stop the car in response to a call entered opposite to car corresponding direction and `separate means comprisl ing the car intercepting unit of the commutator dividually operable from each of said plurality of iioors to close a circuit for an associated door relay, floor-corresponding contacts in the car, the car contacts corresponding to each of `said iloors being operable t^jointly close circuits for the up and the down relay corresponding to a iloor, a commutating machine comprising a rotatable drum having ca1l.storing, car dispatch and car intercepting functions, pairs oi floor-corresponding contacts adapted to be closed during movement of the car to establish parallel call circuits, said last-named pairs of contacts cooperating with the commutator to store and cancel calls, car running circuits controlled by a plurality of switches, switch circuits controlled by an up and a down direction relay, means controlled by the commutator for selectively completing a circuit for each direction relay, veach of the direction relays, when energized, being adapted to complete a circuit for another switch relay, the lastnamed relay being adapted to nrst close a bypass for and then open the direction relay circuit, and to thereafter reroute the positive side of said direction relay circuit to complete a circuit for a gate closing magnet, said gate closing magnet controlling means for closing the car gate, means conditioned on closure of the gate for completing said switch circuits to close a car running circuit, means for eiIecting clockwise and anticlockwise step movements of the commutator drum, said means being controlled by the movement and direction of travel of the car and means controlled by said commutator machine to initiate stopping oi' the carv on a call registered opposite to carv corresponding direction and to intercept the car in successive response to calls in car corresponding direction.

5. In an elevator control system the combination witha car, a hoisting motor therefor, and a gate on the car, oi' control circuits comprising anV up and a down iloor relay corresponding to each o; a plurality ofiioors, up and down contacts individually operable from each of said plurality of oors to close a circuit for an associated floor relay, floor-corresponding contacts in the car, the car contacts corresponding to each of said floors being operable to jointly close circuits for the up and the down relay corresponding to a floor, a commutating machine comprising a rotatable drum having call storing, car dispatch and car intercepting functions, pairs of licor-corresponding contacts adapted tobe closed during movement of the car to establish parallel callv circuits, said last-named pairs of contacts cooperating with the commutating machine to store and cancel calls, car running circuits, controlled by a.

plurality oi' switches, switch circuits controlled by l,

relays to close a circuit for the gate closer mag-` net, means controlled by the gate closer magnet for closing the gate, means conditioned on closure of the gate for completing a car running circuit, means for eecting clockwise and anti-clockwise step movements oi' the commutator drum, said means being controlled by the movement and direction of travel of the car, and means controlled by the commutator machine to initiate stopping of the carV on a call entered opposite to car corresponding direction .and to intercept the car in successive response to calls in car. corresponding direction.

6. In an elevator control system the combination with a car, and a hoisting motor therefor, of control circuits comprising a plurality of oor relays, a commutating machine having call stor' ing and car dispatch units and means operable from each of said iloors and from the elevator car for controlling said circuits, said commutating machine comprising a rotatable drum, means controlled by the movement and direction of travel of the car for effecting clockwise and anticlockwise step movements of the drum. said call storing and car dispatch units being spaced, one from the other, about a circumferential portion of the drum, each of said units comprising two spaced metal plates, each having a stepped adjoining edge providing a staggered {door-corresponding insulated section between the plates of each unit, and stationary, door-corresponding contact elements in circuit relationship to said floor relays and cooperating with the plates and insulated section of each of said units.

7. In an elevator control system the combination with a car, of call circuits comprising a plurality of floor relays, a commutating machine actuated by the movement of the car, having a call storing unit and means normally operable at all times from each of a plurality of floors and from an elevator car to close call circuits to register calls for one or more floors, and said call storing unit comprising two metal plates, each' plate having a stepped adjoining edge providing a staggered, door-corresponding insulated section containing arc-resistance material 'between the plates, and stationary door-corresponding contact elements in circuit with said relays and arranged in permanent contacting relation to said call storing unit.

8. In an elevator control system the combination with a car, of call circuits comprising an up relay and a down relay corresponding to each of a. plurality of floors, a commutating machine actu ated by the movement of the car having a call storing unit, and means normally operable at all times from each of saidl floors and from the ele== vator car to close call circuits to register calls or one or more floors, said call storing unit com prising two spaced metal plates, each plate having a stepped adjoining edge, .providing a staggered floor-corresponding insulated section con= taining arc-resisting material, cooperating contact elements, one corresponding to each door arranged in permanent contacting relation to said y call storing unit and means for conductively connecting one of said door-corresponding contact elements with the up and the down relay corresponding to each of said plurality of doors.

9. In an elevator control system the combination witha car, of call circuits comprising an up relay and a down relay corresponding to each of a plurality of oors, a commutating machine reversibly actuated by the movement of the car having a call storing unit, push buttons operable from each of said floors arid from an elevator car for closing said circuits, push button shunting circuits and additional cooperating call storing means corresponding and individual to each of said floors, each of said additional cooperating call storing means being adapted while the car is passing its corresponding floor, to establish a bypass for a corresponding call circuitwto hold a registered call entered fnh .l said floor in a direction opposite to car corresponding direction.

, 10. In an elevator control system the combination with a car of call circuits comprising an up relay and a down relay corresponding to each of a plurality of floors, a commutating'reversibly machine having arcall storing unit, means operable from each of said floors and from the car for closing said circuits, and pairs of floor corresponding contacts operable to be closed during movement of the car to establish parallel call circuits byrpassing said callstorlng unit, each o! said parallel circuits being adapted, while the car is passing a corresponding floor to establish a bypass for its corresponding call circuit to hold a call registered from said oor in a direction opposite to car corresponding direction.

1l. In an elevator control system the combination with a car, of call circuits comprising an up relay and a down relay corresponding to each of a plurality of floors, a commutating machine, and means operable from each of the floors and from the car for closing said circuits, and pairs of door corresponding contacts adapted to be closed during the movement and to be opened during stop periods of the car to cooperate with the commutator to store and cancel calls, said contacts when closed providing parallel call cir cuits and each of said parallel circuits being adapted to ,establish a bypass for its corresponding call circuit to hold a call registered from said floor in a direction opposite to car corresponding direction, and being thereby adapted to relieve the commutator unit of current load.

l2. In an elevator controll system the combi nation with a car, of call circuits comprising an up relay and a down relay corresponding to each of a plurality of floors, a commutatlng machine, and means operable from each of the :doors and from the car for closing said "circuits, and pairs of iloorfcorresponding contacts adapted to be closed during movement of the car to cooperate with and relieve said commutating machine of load and potential, said machine comprising a unit having movable conductor members and stationary' contact elements, means for connecting a common floor-corresponding Contact ele-= ment with the up and the down relay corresponding to each of said plurality of floors, and means 'J for connecting a common pair ci iioorncorrespending cooperating contacts with the said up and the said down relay corresponding to each of said plurality of floors.

i3. In an elevator control system the combination with a car, of call circuits comprising an up relay and a down relay corresponding'to each of a plurality of floors, a commutating machine hav ing a call storing unit, means operable from the iioors and from the car for closing said circuits, and pairs or floor-corresponding contacts adapted during movement of the car to establish parallel call circuits and to open said circuits during stop periods of the car, each of said parallel circuits being adapted, while the car is passing a corresponding floor, to establish a bypass for its corresponding call circuit to hold a registered call entered from said floor in a direction opposite to car corresponding direction and being adapted upon interception of the car to cancel the calls entered for theviloor at which the car is stopped.

lll. In an elevator control system, the combination with a car, of call circuits comprising an v up relay and a down relay corresponding to each of a plurality of iloors, a' commutating machine reversibly actuated by the movement of the car. having a call storing unit in circuit relation with said floor relays, circuit closing means comprising up and down contacts individually operable from each of said plurality of iloorsvto close the circuit for an associated oor relay, and floor-corresponding contacts in the car, the car contacts and car dispatch units, means operable from a I plurality of iloors and from the car for controlling the closing of said circuits, car running circuits comprising up and down direction switches, circuits for actuating said switches comprising an up direction and a down direction relay, means controlled by said car dispatch unit for selectively closing one sideof a circuit for a direction relay, the other side of the original circuit for said direction relays comprising normally closed contacts of another switch relay, the circuit for said other switch relay being controlled by energization of a direction relay, whereby said other switch relay is energized following energization tion with a car, a hoisting motor therefor, a gate carried by the car, and operating mechanism for opening and closing the gate, of control circuits comprising a plurality of floor relays, acommutating machine having call storing and car dispatch units, means operable from a plurality of iioors and from the car for controlling the closing of said circuits, said control circuits comprising car running circuits including up and down dilrection switches, circuits for actuating said switches comprising an up direction and a down direction relay, means controlled by said car dispatch unit for selectively closing one side of a circuit for the direction relays comprising nor mally closed contacts of another switch relay, the circuit for said other switch relay being controlled by energization of a direction relay, whereby said other switch relay is actuated after enf ergization of a direction relay and, when energized, is adapted to first close abypass ,for the direction relay circuit, thereafter lopen the direction relay circuit at the said normally closed contacts and then reroute one side of lsaid direction relay circuit to complete a circuit for a gate closing magnet, the gate closing magnet being adapted to control said operating mechanism for closing the car gate. f'

17. In an elevator control system the combination with a car, a hoisting motor therefor, a gate carried by the car and operatingmechanism for opening and closing the gate, of control circuits comprising a plurality of oor relays, a commutating machine, actuated by movement of the car and having call storing and car dispatch units, means operable from a plurality ofv iioors-and lfrom the car for controlling the closing of said circuits, a gate opening and a gate closing magnet, car running circuits comprising up and down direction switches, circuits for actuating said switches including up and down direction relays, means controlled byA a switch relay for rerouting one side of the direction relay circuit to close a circuit for the gate closingmagnet, means conditioned on closure of the car gate to complete a car running circuit, and means to open the gate closing magnet circuit, means for intercepting the car, and means kconditioned on opening of the car running circuit for closing a circuit Afor the gate opening magnet, and means controlled by the gate in its i opening movement for `reclosing apart of the circuit for the gate closing magnet.

18. In an elevator control system the combination with a car, a hoisting. motor therefor, a gate-carried by the car and operating mechanismV for opening and closing the gate, of ntrol circuits comprising a plurality of floor relays, a commutating machine actuated by movement of the car and having call storing and car dispatch units, means operable from a plurality of floorsand from the car for controlling the closing of said circuits, car running circuits comprising up and down direction switches, circuits for actuating the switches including up and down direction relays controlled by Vsaid car dispatch unit, a gate opening and a gate closing magnet, means controlled by one of said direction relays for controlling the circuit for the gate closing magnet, to actuate said operating mechanism for closing the gate, means conditioned on closing of the gate to complete a car running circuit, means adapted upon completion of a car running circuit to provide openings in the circuit for the gate closing magnet, means for intercepting the car, means conditioned on opening oi the car running circuit for closing a circuit for the gate opening magnet and closing one of said openings in the gate closing magnet circuit, means controlled by energizing of the gate opening magnet for providing another opening in the gate closing magnet circuit, means operable by the gate in its opening movement to close another of the first-named openings in the gate closing magnet circuit, providing a. time interval, and means operable at the termination of the gate opening movement to open the circuit for the gate opening magnet, the gate opening magnet being adapted to close another opening in the gate closing magnet circuit, and prepare said circuit for completion.

v19. In an elevator control system the combination with a car, a hoisting motor therefor, a gate carried by the car and operating mechanism for opening and closing the gate, of control circuits comprising a plurality of floor relays, a commutating machine actuated by movement of the car, and means operable from a plurality of oors and from the car for controlling the closV` ing' of said circuits, a gate closing magnet and a gate vopening magnet for controlling the gate operating mechanism, car running circuits comprising up direction and down' direction switches, and circuits for actuating said switches comprising up and down direction relays,'means controlled by a car dispatch unit of the commutator for selectively energizing said direction relays, means controlled by a direction relay when energized for closing a circuit for the gate closing magnet, means conditioned on closure of the car gate to complete a car running circuit,

\a pluralityof means operable upon completion 'of a car running circuit to provide openings in the circuit for the gate closing magnet, means -conditioned on interruption of the car running gate opening movement to open the gate opening magnet circuit, and means conditioned by the gate opening magnet being deenergized, and the circuitofor one of said direction relays being closed,ffo'r completing the circuit for the gate closer magnet.

20. In an elevatorv control system the combli to thereafter close an energizing circuit for an nation with a car, a hoisting motory therefor, a

jump relay being adapted to open its said norgate on the car and operating mechanism for the gate, of call circuits comprising a plurality oi floor relays, a commutating machine actuated by movement oi the car, carrunning circuits comprising up and down direction switches, means for selectively controlling said switches to complete a car runnngcircuit, means for intercepting the car, a gate opening magnet and a gate closing magnet, means conditioned on interception of the car for closing a circuit for the gate opening magnet to actuate said gate operating mechanism for opening the gate, means operable at the termination of the sate opening movement to open circuit the gate opening magnet, means conditioned by the gate opening magnet being deenergizeol for closing a circuit for the gate closing magnet, and means operable upon the gate closing magnet remaining energized for a definite period beyond the closingmovement tlmeof the gate, to open the circuits for all energized iioor relays to cancel all registered calls, said means comprising timecontrolled mechanism directly connected to the armature of said gate closer magnet, and a pair of normally closed contacts controlled thereby.

2l. In an elevator control system the combination with a car and a hoisting motor therefor of call circuits, car running circuits, a commutator comprising a rotatable drum having a plurality of units, each comprising drum conductor members and cooperating, stationary, floor-corresponding contact elements, said call circuits comprising a call storing unit of the commutator, a plurality of oor relays, and means operable from each of a plurality of floors and from the car for closing the call circuits, means controlled by each of the floor relays for closing one side of a circuit through a car dispatch unit, and means controlled by each of said iloor relays for closing a part of one side of a circuit comprising a car intercepting unit, oi

the commutator, up and down obstruction members adjacent the floors, and flexible circuitclosing elements carried on the car for transmitting energizing impulses selectively to up and down drum-jump relays, up and down jump magnets each adapted to' be energized by a direction corresponding drum-jump relay, and

actuating mechanism controlled by the jump magnets for effecting clockwise and anticlockwise step movements of the commutator drum,

in accordance `with direction of cartravel, said car dispatch unit of the commutator being adapted to selectively control closing of the car running circuits, and to control opening of a car running circuit to stop the car in response to a call registered opposite to car corresponding direction, separate means comprising stop magnets for controlling interception of the car in successive response to calls incar corresponding direction, means for completing an .original energizing circuit for one of said stop magnets following a step movement of the drum and in advance of arrival ofthe car at each of said corresponding direction call iloors, said circuit comprising a car intercepting unitof the commutator, contacts controlled by up and down direction switches in the car running circuits and normally-closed contacts associated with eachr drum-jump relay, each energized drummally closed contacts to open circuit said firstnamed stop magnet and prevent energization thereof during step movements o f the drum;

associated jump magnetfand' then close a selfholding circuit for itself, means comprising normany-closed contacts adapted to be opened by each jump magnet, when energized and. upon completion of a step movement of the drum,

to open the self-holding circuit for its associated drum-jump relay, the drum-jump relay thereafter interrupting the energizing circuit for its associated jump magnet and thereby insure complete step movement of the drum, and then closing its normally-closed contacts in the energizing circuit for the first-named stop magnet, the first-named stop magnet, when energized, being adapted to iirst close a bypass for an original car running control circuit, then close an energizing circuit iol' a second stop magnet and thereafter close a self-holding circuit for itself, said self-holding circuit being common to the first-named stop magnet and the drum-jump relays, the second stop magnet, when,`

energized, being adapted to open the original,

now bypassed, car running control circuit, open the original energizing circuit for the iirst named stop magnet and complete a self-holding circuit for itself, the energization of a direction correspending drum-jump relay, upon ,approach of the car to each door, having a call in car corresponding direction, being adapted to close theA energizing circuit for its corresponding jump magnet, the jump magnet advancing the drum a step `and thereafter opening its normally-closed contacts to open the common self-holding circuit for its drum-jump relay and said nrstnamed stop magnet, therst-named stop magnet when deenergized being adapted to open the bypass for the car running control circuit and intercept the car.

22. In an elevator control system, the combination with a car, and a hoisting motor therefor, of call circuits, car running circuits, a commutator comprising a rotatable drum having call storing, car dispatch and car intercepting functions, an up and a down drum-jump relay means for energizing each of said drum-jump relay in accordance with the direction of travel of the and to control opening of a car running circuity to stop the car in response to a call registered opposite to car corresponding direction, separate means comprising a stop magnet for controlling interception of the car in successive response to calls in car corresponding direction, means for completing an original energizing circuit for said stop magnets following a step movement o the drum and in advance of arrival of the car at each of said corresponding direction call floors, said circuit comprising another unit of the commutator and normally-closed contacts'associated with each of said drum-jump relays, each drumjump relay, when energized, being adapted to open its said normally-closed contacts to opencircuit the said stop magnet and prevent energization thereof during step movements of the drum, to thereafter close an energizing circuit for an associated jump magnet and then close a self-holding circuit for itself, means compris- 

